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Recruitment of class I hydrophobins to the air : water interface initiates a multi-step process of functional amyloid formation

journal contribution
posted on 2011-05-06, 00:00 authored by V Morris, Q Ren, I Macindoe, A Kwan, Nolene ByrneNolene Byrne, M Sunde
Class I fungal hydrophobins form amphipathic monolayers composed of amyloid rodlets. This is a remarkable case of functional amyloid formation in that a hydrophobic:hydrophilic interface is required to trigger the self-assembly of the proteins. The mechanism of rodlet formation and the role of the interface in this process have not been well understood. Here, we have studied the effect of a range of additives, including ionic liquids, alcohols, and detergents, on rodlet formation by two class I hydrophobins, EAS and DewA. Although the conformation of the hydrophobins in these different solutions is not altered, we observe that the rate of rodlet formation is slowed as the surface tension of the solution is decreased, regardless of the nature of the additive. These results suggest that interface properties are of critical importance for the recruitment, alignment, and structural rearrangement of the amphipathic hydrophobin monomers. This work gives insight into the forces that drive macromolecular assembly of this unique family of proteins and allows us to propose a three-stage model for the interface-driven formation of rodlets.

History

Journal

Journal of biological chemistry

Volume

286

Issue

18

Pagination

15955 - 15963

Publisher

American Society for Biochemistry and Molecular Biology

Location

Bethesda, Md.

ISSN

0021-9258

eISSN

1083-351X

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2011, The American Society for Biochemistry and Molecular Biology, Inc.